With high technology in hand, we will lead China to break out of the universe

Then he rolled his eyes and fainted.

After an unknown amount of time, he slowly woke up, picked up the phone on the bedside table, and found that it was already one o'clock in the morning of the next day.

Considering that he would need to extract black technology frequently in the future, Su Fan placed a lot of fast food in his villa.

After going to the kitchen on the first floor and eating a lot of food, he lay comfortably on the sofa, squinting his eyes and thinking about things.

The current mainstream nuclear fusion research direction in the world is deuterium-tritium fusion, because deuterium-tritium fusion is the easiest to achieve.

Deuterium-deuterium fusion is more difficult to achieve than deuterium-tritium fusion, and the energy released is lower than that of deuterium-tritium fusion, so researchers have almost given up this approach.

This route has two advantages.

First, the Blue Planet has very rich deuterium reserves, and the deuterium in the ocean is enough to last for hundreds of millions or even billions of years.

Second, deuterium does not radiate. Deuterium-deuterium fusion generally produces helium-4 and a neutron, so the neutron problem is easy to solve.

To sum up, deuterium-deuterium fusion is almost a clean energy source and can be used to make do.

The next thing to face is the manufacture of nuclear fusion reactors.

Three conditions must be met for a deuterium-deuterium fusion reactor to be successful.

First, the ignition temperature must be sufficient.

Second, it can withstand temperatures of over 100 million degrees Celsius generated by continuous operation.

Third, neutron collection.

Solving the neutron collection problem is simple, but the ignition method and high temperature resistance are difficult.

There are currently two commonly used ignition methods and high temperature resistance methods in the world.

The first is inertial confinement fusion, which uses lasers or other forms of high-energy particle beams to irradiate fuel pellets, causing the fuel inside to shrink inward due to heat, thereby reaching a high enough temperature and pressure to trigger a nuclear fusion reaction.

The second is magnetic confinement fusion, which uses strong magnetic fields to confine high-temperature plasma so that it undergoes chemical reactions without contacting the container walls. The tokamak device is a common design for magnetic confinement fusion.

Of course, there are other ways.

Unfortunately, no matter which method is used, the running time is measured in seconds and the cost is extremely high.

The Super God Black Technology System is worthy of being a black technology system, and the solutions it provides are completely different from the two traditional ones.

……

The controlled nuclear fusion exchanged by the system directly solves the high temperature problem with a special material that can withstand temperatures of over 100 million degrees.

This special material is not any material that exists on Blue Star and needs to be re-developed.

The material is referred to in the literature as Type 1 thermoelectric alloy.

The working principle of thermoelectric alloys that can withstand temperatures exceeding 100 million degrees is very simple.

According to the law of conservation of energy, when ordinary metals or substances are heated, they convert heat into molecular or atomic kinetic energy. As the temperature rises, they will become liquid or even gaseous.

Thermoelectric alloys are completely different. When heated, they do not gain molecular or atomic kinetic energy, but instead convert thermal energy into electrical energy.

Within a certain temperature range, the higher the temperature, the more electrical energy is converted!

And it’s almost 100% conversion!

Horror!

Type 1 thermoelectric alloy is a complex new alloy that requires the synthesis of 10 new alloys.

However, Blue Star still does not have these 10 new alloys.

Fortunately, Blue Star has all the materials needed to synthesize these 10 new alloys, and none of them are precious.

Having learned from the hard work of developing the super-god battery last time, Su Fan firmly refused to have one or two people develop these eleven new materials.

The next afternoon.

A group of uninvited guests came to the company.

As soon as Su Fan arrived at the company gate, he was blocked by Zhou Xiaoxiao. It turned out that the representative from LG Battery of Korea had come and was waiting in the lobby on the first floor.

Su Fan raised the corner of his mouth and waited in the hall. He liked this arrangement.

"Find someone to watch over the hall and make sure they don't wander around."

"I'm going to go out and play for a while. I'll be back in a few hours."

"If they ask, just say I'll be there soon." Su Fan winked at Zhou Xiaoxiao, then drove away in the car that the company had provided him some time ago.